Effects of Table Grape Cultivars on Fruit Quality and Aroma Components

The basic physical and chemical qualities, nutrition, aroma components, and sensory evaluation of 17 varieties of table grapes were studied. The quality evaluation system of different table grape varieties was preliminarily determined. Our results show that the soluble solid content in Ruby Seedless was 21.17%, which was higher than that of other varieties. The black varieties Aishenmeigui and Sweet Sapphire had the highest total phenol content. Aishenmeigui had high levels of tannin and vitamin C. In addition, the aroma contents in Meixiangbao, Ruby Seedless, and Shine-Muscat were higher than those in other varieties. Manicure Finger and Ruby Seedless had higher levels of C6 compounds. Moreover, the “Kyoho” series of grape Meixiangbao, Sunmmer Black, Jumeigui, Hutai 8 hao, and Black Beet were high in ester content, while Muscat varieties, including Zaoheibao, Aishenmeigui, Jumeigui, and Shine-Muscat were rich in terpene substances. Ruby Seedless, Shine-Muscat, and Heibaladuo had higher comprehensive scores in sensory evaluation. Hence, the comprehensive quality of Shine-Muscat, Ruby Seedless, and Aishenmeigui was better. These results may serve as references for determining the quality differences between table grape varieties.


Introduction
Grape is a deciduous vine of the genus Vitis labrusca belonging to the Vitaceae family, and its size, shape, skin color, flesh color, flavor, and aroma vary from species to species.Food and Agriculture Organization statistics show that approximately 75,866 square kilometers of agricultural land are used for grape production, and table grapes account for approximately 27% of global grape production [1].Although wine consumption in China has increased over the past decade, the grape industry is still dominated by table grapes, accounting for 80% of total grape production [2].At the same time, people consume grapes worldwide owing to the rich nutrition, variety, unique fruit shape, and other characteristics of grapes.
Numerous studies have shown that daily intake of fruits and vegetables can effectively prevent chronic diseases, such as cardiovascular disease, cancer, and diabetes, due to the presence of fiber, minerals, vitamins (vitamins C and E), and phytochemical compounds (including phenolic acids, flavonoids, and anthocyanins) [3].In addition, studies have shown that grapes contain a variety of vitamins, carotenoids, and polyphenols, which are an important source of health-promoting compounds for humans [4][5][6].Common intermediate phenolic compounds in grapes include anthocyanins, stilbenes, flavan-3-ol, and tannins [7].Anthocyanins have certain antioxidant activities preventing diseases, including cardiovascular diseases and cancer [8].Proanthocyanidins, also known as concentrated Foods 2023, 12, 3371 2 of 20 tannins, are found in berry skins and seeds and are important for improving wine taste and stability [9].However, high levels of tannins are associated with a high degree of astringency, which is considered a negative characteristic of food grapes [10].In addition, grapes are sources of vitamin C, which is generally considered the most important vitamin in human nutrition [11].
Although grapes are an important source of health-promoting compounds, they are consumed primarily for their sweetness, juiciness, and aroma.Aroma is one of the important factors affecting grape quality.For example, consumers are usually attracted to the rose fragrance of the Sunshine Rose grape.Studies have shown that terpenes, C13 isoprene, methoxypyrazine, C6-alcohol, aldehydes, esters, and mercaptans are among the most important compounds that contribute to the aroma of grapes [12].Among these compounds, terpenes and esters provide floral and fruity characteristics to grapes, while alcohols and C6 aldehydes contribute to a herbaceous flavor [13].Table grapes are classified into groups depending on the type of aroma [14].For example, table grapes can be classified into Muscat, strawberry, and fox aromas; among them, monoterpenes are the main compounds in muscat grape varieties [15].Moreover, recent studies have shown that monoterpenes have antifungal, antibacterial, antioxidant, anticancer, and antispasmodic effects [5,16].Several epidemiological studies have also suggested the potential of terpenes in preventing and treating breast, skin, lung, colon, and prostate cancers [17].Several factors, such as variety, tree age, rootstock, and maturity, affect the aroma of grapes [18].Currently, there are few studies on varietal quality differences, especially on varietal aroma characteristics, which need to be further studied.
Thus, in this study, the basic physical and chemical indices, nutritional indices, aroma components, and sensory quality of 17 different table grape varieties were analyzed.Some high-quality table grape varieties with a sweet and sour flavor, juicy flesh, and rich texture were selected.The results lay a foundation for determining the quality differences among varieties.

Samples
The grapes were obtained in 2021 at a commercial vineyard in Yangling, Shaanxi, China (33 • 17 N, 107 • 04 E) (Table S1).The annual precipitation in Yangling is 635.1-663.9mm with an average annual temperature of 12.9 • C. Ten vines were selected for each variety of grape.Three clusters were randomly selected from each vine, 10 berries from each cluster, for 300 grape berries.To reduce experimental errors, two trees at the beginning and the end of each row were avoided.Healthy fruits uniform in size were used in the experiment.All grape samples were immediately frozen with liquid nitrogen and stored in a −80 • C refrigerator.All samples were triplicated.

Physical-Chemical Analysis
A single grape berry was weighed on a FA2018N electronic balance (Jinghua Science and Technology Instrument Co. Ltd., Shanghai, China) after washing with distilled water and drying with filter paper.The pH was measured with a PHS-3C lightning magnetic pH meter (Precision Science Instruments Co. Ltd., Shanghai, China).Brix values were measured with a hand-held digital Atago PAL-1 m (Atago Co. Ltd., Tokyo, Japan).According to OIV (2012), the titratable acid was determined through NaOH titrimetric method (using tartaric acid as a meter).

Nutritional Quality Analysis
The content of total anthocyanins in red grape berries was determined using the pH differential method with dimethyl anthocyanin (mg/kg) [13].The flavonoid content was determined using the sodium nitrite-aluminum nitrate method [19].The total phenol content was determined using the Folin-Ciocalte method [20].The content of vitamin C in Foods 2023, 12, 3371 3 of 20 fruits was determined using the 2,6-dichloroindophenol method [21].The tannin content was determined using the Folin-Denis method [22].

Aroma Compounds Determined Using Gas Chromatography-Mass Spectrometry
Headspace solid-phase microextraction was used to extract aroma compounds from grapes [23].Free aroma compounds were extracted from berries using previously reported methods [24,25].The grape was ground into 50 g homogenate in liquid nitrogen (during which 5 g PVPP was added).After soaking for 2.5 h, the supernatant was separated through centrifugation at 8000 rpm for 10 min.Approximately 1.00 g of NaCl and 5 mL of grape juice were added to the sample bottle, and 10 µL of internal standard substance 4-methyl-2amyl alcohol (2.02 mg/L) was added to the mixture.All samples were uniformly vibrated with a magnetically heated agitator at 40  C for extraction.The extraction head was placed in a gas chromatograph (GC) inlet for 5 min to analyze the grape aroma according to the method established in our laboratory.
The GC was operated under the following conditions: the carrier gas was helium (He), and the flow rate was 1 mL/min.The procedure of rising column temperature was as follows: 40 Qualitative and quantitative methods: The quality spectra obtained by GC-MS analysis were compared with the NIST14.L spectrum library of computer for qualitative analysis of aroma compounds.The compounds were identified using the methods of standard retention time comparison, literature retention index comparison and aroma characteristics comparison.The method of the internal standard-standard curve was used for semiquantitative analysis with 4-methyl-2-pentanol as the internal standard.

Sensory Evaluation Analysis
The sensory evaluation group consists of 15 professionally trained wine students, including 7 boys and 8 girls, aged between 22 and 28.The sensory evaluation of the wine was evaluated from four aspects: appearance analysis (clarity, chroma, and hue), flavor analysis (purity, concentration, and elegance), texture analysis (purity, concentration, balance, persistence, and flavor characteristic quality), and overall evaluation, with a total score of 100 points (Table S2).

Statistical Analysis
The data were analyzed using SPSS 23.0, the sensory characteristic scores were analyzed using an independent-sample t-test, and the other indices were analyzed using a one-way analysis of variance.The difference was significant (p < 0.05), and the values were expressed as mean ± standard error.Partial least squares discriminant analysis (PLS-DA) of aroma compounds was performed with Simca 14.1 software, and GraphPad PRISM 8.0.2 software was used for mapping.

Basic Physical and Chemical Quality of Different Table Grape Varieties
There were significant differences in fruit weight per grain among different varieties.As shown in Table 1, the average berry weights of Aishenmeigui and Jumeigui were 10.87 g and 10.37 g, respectively, higher than those of other varieties.The average single berry weight of Shaoxing 1 hao was only 3.76 g, which was lower than that of other varieties.In previously reported studies, the average berry weight of Hutai 8 hao was 10.40 g [26].However, the average berry weight of Hutai 8 hao was 9.28 g in this study, slightly lower than the normal average berry weight.The maturity of grapes was preliminarily determined using the pH value and the content of soluble solids.Table 1 shows significant differences in the pH value of all grape varieties.Aishenmeigui has the highest pH of 4.45.The pH values of Meixiangbao and Italia were 3.04 and 3.13, respectively, lower than those of other varieties.Apart from Sweet Sapphire and Zitianwuhe, the other 15 varieties contained more than 16% of the soluble solid.The soluble solid content in Ruby Seedless was 21.17%, and that of Zitianwuhe was the lowest, only 15.71%.The titratable acid contents in 17 grape cultivars were between 6 and 9 g/L.Among the grape cultivars, the titratable acid contents in Zaoheibao and Italy were 8.55 g/L and 8.63 g/L, respectively, higher than those of other varieties.The titratable acid content of Meixiangbao was the lowest (6.77 g/L).

Nutritional Quality of Different Table Grape Varieties
The nutritional quality analysis of different table grape varieties is shown in Figure 1.Vitamin C is an important nutrient and antioxidant in grapes that can eliminate free radicals and reduce oxidative stress.There was a significant difference in vitamin C content among different table grape varieties (Figure 1a).The grape varieties with high vitamin C content were Shine-Muscat (53.51 mg/100 g) and Aishenmeigui (41.45 mg/100 g).The grape varieties with vitamin C content ranging from 30 to 40 mg/100 g were Sunmmer Black, Zaoheibao, Sweet Sapphire, Jumeigui, and black beet.The other 10 varieties contain vitamin C ranging from 20 to 30 mg/100 g.
The content of total anthocyanin depends on the color of the grape peel.The content of total anthocyanin was higher in the grape varieties with purple-black color.Figure 1b shows a significant difference in total anthocyanin content between light-colored grape and dark-colored grape varieties.The anthocyanin contents in Sunmmer Black, Aishenmeigui, Sweet Sapphire, and Black Beet were each more than 1000 mg/kg.The total anthocyanin contents of Italia and Shine-Muscat were 74.96 mg/kg and 104.89 mg/kg, respectively, lower than those of other varieties.Although Zhengyanwuhe is a red variety, the total anthocyanin content in this variety was only 156.53 mg/kg due to its small fruit grains and thin pericarp.Total phenol is an important organic active substance and secondary metabolite in grapes, affecting the flavor and taste.Figure 1c shows no significant difference between Aishenmeigui and Sweet Sapphire total phenol contents.However, the total phenol contents in Aishenmeigui and Sweet Sapphire were higher than that in other varieties.The total phenol contents in Italia, Zhengyanwuhe, Jumeigui, and Shine-Muscat were below 800 mg/kg, while Zhengyanwuhe was approximately 426.63 mg/kg, which was lower than other varieties.
Flavonoids can enhance the ability of anti-oxidation and free radical scavenging and have a certain bacteriostatic effect [27].There were significant differences in flavonoid content among different table grape varieties (Figure 1d).The flavonoid content in Zitianwuhe was 126.58 mg/g, while the content of vitamin C was 23.96 mg/100 g.The contents of vitamin C and flavonoids in Aishenmeigui were 41.45 mg/100 g and 120.60 mg/g, respectively, higher than those in other varieties.
Tannin is a natural antioxidant and preservative that imparts a certain bitterness to grapes.The tannin contents of Shaoxing 1 hao and Aishenmeigui were 95.59 mg/100 g and 92.85 mg/100 g, respectively (Figure 1e).The tannin content in seedless early-maturing variety Italia was lower than that of other varieties, approximately 39.59 mg/100 g. meigui, Sweet Sapphire, and Black Beet were each more than 1000 mg/kg.The total anthocy anin contents of Italia and Shine-Muscat were 74.96 mg/kg and 104.89 mg/kg, respectively lower than those of other varieties.Although Zhengyanwuhe is a red variety, the total an thocyanin content in this variety was only 156.53 mg/kg due to its small fruit grains and thin pericarp.
Total phenol is an important organic active substance and secondary metabolite in grapes, affecting the flavor and taste.Figure 1c shows no significant difference between Aishenmeigui and Sweet Sapphire total phenol contents.However, the total phenol content in Aishenmeigui and Sweet Sapphire were higher than that in other varieties.The total phe nol contents in Italia, Zhengyanwuhe, Jumeigui, and Shine-Muscat were below 800 mg/kg while Zhengyanwuhe was approximately 426.63 mg/kg, which was lower than other varie ties.
Flavonoids can enhance the ability of anti-oxidation and free radical scavenging and have a certain bacteriostatic effect [27].There were significant differences in flavonoid con tent among different table grape varieties (Figure 1d).The flavonoid content in Zitianwuh was 126.58 mg/g, while the content of vitamin C was 23.96 mg/100 g.The contents of vit amin C and flavonoids in Aishenmeigui were 41.45 mg/100 g and 120.60 mg/g, respectively higher than those in other varieties.
Tannin is a natural antioxidant and preservative that imparts a certain bitterness to grapes.The tannin contents of Shaoxing 1 hao and Aishenmeigui were 95.59 mg/100 g and 92.85 mg/100 g, respectively (Figure 1e).The tannin content in seedless early-maturing variety Italia was lower than that of other varieties, approximately 39.59 mg/100 g.

Aroma Profiles of Different Table Grape Varieties
The aromatic substances were abundant in grapes.Table 2 shows 81 aroma com pounds that were detected in 17 grape cultivars, including seven C6, twenty esters, thirt terpenes, eight alcohols, three acids, nine aldehydes, and three species of C13 isoprene.

Aroma Profiles of Different Table Grape Varieties
The aromatic substances were abundant in grapes.Table 2 shows 81 aroma compounds that were detected in 17 grape cultivars, including seven C6, twenty esters, thirty terpenes, eight alcohols, three acids, nine aldehydes, and three species of C13 isoprene.The C6 compound, also known as the green component, is an unsaturated fat enzymatic breakdown product and is the essential aroma component of the 17 grape varieties [28].The contents of C6 compounds in Italia, Manicure Finger, and Ruby Seedless were higher than 2000 µg/L.The content of (E)-2-hexenal was the highest, followed by hexanal, hexanol, and (Z)-2-hexenol, while the content of 3-hexenol and 3-hexenal was lower.Levels of (E)-2-hexenal in all varieties were higher than levels of 3-hexenal, which is consistent with the findings of Aubert et al. [29].This result illustrates that, in most plants, compounds with a (3Z)-aldehydes structure are rapidly isomerized by (3Z, 2E)-aldehydes isomerase to form the (2E)-aldehydes [30].
The alcohols detected in this study included heptanol, octanol, nonanol, benzyl alcohol, phenylethyl alcohol, 1-octen-3-ol, and 2-ethyl hexanol.The proportion of alcohols in total aroma content was not high, and the content of alcohols in all varieties did not exceed 30 µg/L.Phenylethyl alcohol and 2-ethyl hexanol were found in high concentrations in the 17 grapes, particularly in Meixiangbao, Zaoheibao, and Sweet Sapphire.However, the alcohol had a high threshold of odor inactivation and did not produce the expected floral aroma.The esters detected in this study were ethyl acetate, ethyl butyrate, ethyl heptanoate, ethyl pentanoate, ethyl 2-methylbutyrate, ethyl 3-methylbutanoate, and ethyl hexanoate.The content of ethyl acetate was the highest, and the ethyl acetate had a considerable celery flavor.However, the deactivation threshold was approximately 4700 µg/L, without a significant effect on the overall aroma of the grape.The activity threshold of ethyl 2methylbutyrate and ethyl 3-methylbutanoate was less than 1 µg/L, and the fruity aroma can be expressed by both of them.Ethyl 2-methylbutyrate and ethyl 3-methylbutanoate contribute significantly to the aromas of Hutai 8 hao, Heibaladuo, Sunmmer Black, Ruby Seedless, and black beet varieties.Among them, aldehydes and esters were the main volatile components of Hutai 8 hao, which is consistent with Yao et al. [31].Most of the organic acids in grapes are produced through the long-term respiration of the green plants before the color change of the berries, and most of them are found in the peel and seeds.In this study, Sunmmer Black, Jumeigui, Hutai 8 hao, and Black beet belonging to the Kyoho grapevine series were used due to their advantages including large fruit, bright color, and disease resistance.These cultivars occupy the largest acreage in China.In addition, esters were detected in the four cultivars of the Kyoho grape series, consistent with the results of Wu et al. [14].In the experiment, only three types of organic acids were detected: hexanoic acid, nonanoic acid, and 2-hexanoic acid.Although the detected organic acids produced unpleasant odors, such as putrefaction and perspiration, they contributed little to the overall aroma.
The terpene aroma compounds measured in this study were the most abundant among all the aroma compounds.Our findings show that the terpenes are the characteristic compounds of the four varieties of Muscat grape, consistent with the findings of Mateo et al. [15].Terpene forms the basis of the classification of grape cultivars [14].The contents of terpenes in Zaoheibao and Manicure Finger were more than 1000 µg/L.In addition, the terpene contents in Heibaladuo, Aishenmeigui, Zhengyanwuhe, Ruby Seedless, Ruiduwuheyi, Jumeigui, and Shine-Muscat were between 800 and 1000 µg/L.The difference in aroma between different grape varieties can be attributed to genetic variation in aroma biosynthesis genes.For example, an allelic variant of 1-deoxy-d-xylose-5 phosphate synthase and a terpenoid biosynthesis gene can cause the accumulation of terpenes in the Muscat grape [32].Cis-(trans-) rose oxide, eugenol, linalool, and citronellol had a low threshold of odor inactivation, which contributed to the overall aroma characteristics of the grape.The main terpene compounds were citronellol, neral, linalool, and α-terpineol, followed by Geranial cis-Linalool oxide, neral, and (Z)-Limonene.The content of cis-(trans-) rose oxide, 4-terpinene, β-terpinene, and hotrienol were lower; because of their very low odor thresholds, linalool and geraniol are generally considered to be the two major flavor contributors to Muscat [15].Recent studies have shown that monoterpenes play a role in the prevention and treatment of various diseases, including cancer [5].In particular, linalool is an antioxidant, anti-inflammatory, and cardiovascular stimulant [5,33], and geraniol can inhibit the growth of HEPG2 human hepatoma cells [17,34].
C13-isoprene is a carotenoid aromatic substance.Due to the distinct carotenoid species, regional characteristics, and extremely low threshold of odor inactivation, it plays an important role in the characteristic aroma of a wine.The C13 isoprene detected in this study included β-damascenone, β-Ionone, and geranylacetone.The content of C13 isoprene was low in the total content of all aroma components (lower than 1 µg/L), and its distribution was more uniform in all varieties.C13 isoprene compounds were detected in all varieties except Ruiduwuheyi.The β-damascenone and β-Ionone had distinct sweet fruit and floral aromas, and their deactivation thresholds were less than 0.005 µg/L.Therefore, β-damascenone and β-Ionone contributed significantly to the overall aroma characteristics of the grape.

Sensory Evaluation of Different Table Grape Varieties
Sensory analysis is a series of observations, analyses, and descriptions of grapes performed through human senses [35].To examine aroma characteristics and evaluate the comprehensive quality of the grape, 15 wine professionals scored the appearance according to the shape, size, color, and weight of the grape.The texture parameters were scored according to the degree of softness and hardness of grape pulp, the abundance of juice and water, and the brittleness of grape pulp.The flavor parameters were scored according to the coordination of sweet and sour, characteristic aroma, and pure flavor.The sensory evaluation scores and comprehensive scores of different table grape varieties are shown in Figure 2. In appearance, the score of Shine-Muscat (28.36 points) was higher than that of other varieties.The appearance scores of the other varieties had no significant difference.In terms of texture, the experts preferred the crispy grape varieties.Ruby Seedless, Shine-Muscat, Italia, black beet, and Heibaladuo had higher texture scores than other varieties, among which Ruby Seedless scored the highest (29.62), while Sunmmer Black, with its soft fruit, scored the lowest (20.17).Varieties with a score of more than 35 on the flavor level were Heibaladuo, Sunmmer Black, Ruby Seedless, Shaoxing 1 hao, A, Jumeigui, Hutai 8 hao, and Shine-Muscat.The flavor scores of Meixiangbao, Zhengyanwuhe, and Ruiduwuheyi were below 30 points, and the varieties had bad flavor and no considerable aroma.Ruby Seedless and Shine-Muscat scored a combined score of more than 90, higher than the other varieties, and are popular for their rich aroma, crispy texture, and sweet and sour taste.Sweet Sapphire tasted sour after ripening, was crisp but astringent, and had a comprehensive score of only 74.81 points.

Principal Component Analysis (PCA) and PLS-DA of Different Table Grape Varieties
In the comprehensive evaluation of the quality of table grapes, the appearance, flavor, texture, and other factors of the fruit should be considered, as well as the nutritional value of the fruit, such as soluble solids and titratable acids, to ensure the comprehensive evaluation of information.The PCA is a multivariable data analysis technique for dimen-

Principal Component Analysis (PCA) and PLS-DA of Different Table Grape Varieties
In the comprehensive evaluation of the quality of table grapes, the appearance, flavor, texture, and other factors of the fruit should be considered, as well as the nutritional value of the fruit, such as soluble solids and titratable acids, to ensure the comprehensive evaluation of information.The PCA is a multivariable data analysis technique for dimensionality reduction and showing relationships/correlations between variables and samples [36,37].In this study, 11 main indices that can reflect fruit quality were selected for a comprehensive evaluation of grapes using PCA, and the results were objective.The first two principal components explained 53.4% of the original variables, and varieties C, B, and I were more affected by acids.Varieties M and G had higher contents of aroma components, which could be classified into one group, variety A had higher contents of vitamin C, variety H had higher contents of tannin and C6 compounds, and variety I had higher contents of vitamin C than other varieties, which were close to the principal component axis (Figure 3a).

PEER REVIEW
15 of 19 other varieties were located at the negative end of the second principal component, and the difference in positions was obvious.
To explain the experimental results more comprehensively, PLS-DA was used to analyze the obtained data.As shown in Figure 3b, the first two principal components (PC1 and PC2) accounted for 50.2% of all variables.The results showed that 17 varieties could be clearly distinguished from each other.The results were consistent with PCA (Figure 3a), further validating the objectivity and rationality of the data analysis.

Cluster Analysis of Different Table Grape Varieties
Cluster analysis can solve the problem of classification when there is more than one index and these indices have great correlation.The classification indices selected in this study included pH, titratable acid, soluble solid, single berry weight, total anthocyanin, Biplots (score plots combined with loading plots, Figure 3c) of the PCA showed that 68.7% of the variance was explained by 80 different aroma components, with PC1 and PC2 accounting for 56.7% and 12% of the variance, respectively.Except for varieties C, G, L, F, A, N, and K, the other varieties were not well differentiated.However, the L, G, F, A, N, and K varieties were located at the positive end of the second principal component.The other varieties were located at the negative end of the second principal component, and the difference in positions was obvious.
To explain the experimental results more comprehensively, PLS-DA was used to analyze the obtained data.As shown in Figure 3b, the first two principal components (PC1 and PC2) accounted for 50.2% of all variables.The results showed that 17 varieties could be clearly distinguished from each other.The results were consistent with PCA (Figure 3a), further validating the objectivity and rationality of the data analysis.

Cluster Analysis of Different Table Grape Varieties
Cluster analysis can solve the problem of classification when there is more than one index and these indices have great correlation.The classification indices selected in this study included pH, titratable acid, soluble solid, single berry weight, total anthocyanin, flavonoid, total phenol, tannin, vitamin C, total sensory score, the total content of aroma substances and aroma types, a total of 15 species.As shown in Figure 4, 17 different table grape varieties were divided into five classes, A: Aishenmeigui, Zitianwuhe, Ruiduwuheyi, Sunmmer Black, Shaoxing 1 hao and black beet; B: Ruby Seedless; C: Heibaladuo, Manicure Finger, Sweet Sapphire and Hutai 8 hao; D: Italy, Zhengyanwuhe, Zaoheibao and Jumeigui; E: Meixiangbao and Shine-Muscat.To summarize, the content of total anthocyanins and total phenolics was higher in the category A variety, and the color of fruit skin was black-purple.Thus, this variety was named the purple-black grape.The content of titratable acid in the category B variety was higher, and the maturity was lower, and so it was named the acid grape.The category C variety was named the balanced grape because of its high sensory evaluation and characteristic aroma.The vitamin C and flavonoid content of category D variety was higher.Thus, this variety was named the nutrition grape.The category E variety was named the luzhou-flavor grape because of its rich aroma and high total content.The cluster analysis result is consistent with the content presented by the load diagram of PCA.To summarize, the content of total anthocyanins and total phenolics was higher in the category A variety, and the color of fruit skin was black-purple.Thus, this variety was named the purple-black grape.The content of titratable acid in the category B variety was higher, and the maturity was lower, and so it was named the acid grape.The category C variety was named the balanced grape because of its high sensory evaluation and characteristic aroma.The vitamin C and flavonoid content of category D variety was higher.Thus, this variety was named the nutrition grape.The category E variety was named the luzhou-flavor grape because of its rich aroma and high total content.The cluster analysis result is consistent with the content presented by the load diagram of PCA.

Conclusions
In this study, the basic physical and chemical qualities, nutritional and aroma components, and sensory evaluation data of 17 varieties of table grapes were obtained.The soluble solid content of the new variety Ruby Seedless was 21.17%, which was higher than that of other varieties.Aishenmeigui and Sweet Sapphire had the highest polyphenol and • C was increased to 160 • C at 4 • C/min for 3 min, then to 230 • C at 7 • C/min for 8 min, and finally to 250 • C (inlet), and 1 µL of the injection volume.Mass spectrometer conditions: electron ionization source (EI), electron source voltage (70 eV), filament flow (0.20 mA), ion source temperature (230 • C), detector voltage (350 V), mass spectrum scanning range (33-450 amu), and scanning frequency (1 Hz).

Figure 2 .
Figure 2. Sensory evaluation scores of different table grape varieties on appearance, texture and flavor (a).The comprehensive score of sensory evaluation of different table grape varieties (b).

Figure
Figure Sensory evaluation scores of different table grape varieties on appearance, texture and flavor (a).The comprehensive score of sensory evaluation of different table grape varieties (b).

Figure 3 .
Figure 3. Principal component analysis and partial least squares discriminant analysis of different table grape varieties.Biplots of aroma (c) and quality index (a) of different table grape varieties; (b) Partial least squares discriminant analysis (PLS-DA).The circles represent aroma compounds, and the pentagram represents grape varieties.

Figure 4 .
Figure 4. Genealogy of 17 different table grape varieties for cluster analysis.

Figure 4 .
Figure 4. Genealogy of 17 different table grape varieties for cluster analysis.
• C set to 30 min.An activated extraction head (50/30 MM DVB/Carboxen/PDMS, Supelco, Bellefonte, PA, USA) was inserted into the sample bottle air layer for 35 min at 40

Table 1 .
Analysis of the basic physical and chemical quality of different table grapes.

Table 2 .
Aroma substance concentrations of 17 different table grape varieties.